Problem of the Month. Cutting a Cube. A cube is a very interesting object. So we are going to examine it.

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Transcription:

Problem of the Month Cutting a Cube A cube is a very interesting object. So we are going to examine it. Level A: Without holding a cube, try to picture it in your mind. How many sides (faces) does a cube have? How many corners (vertices) does a cube have? How many lines (edges) does a cube have? What can we say about the size of the sides (faces) and the lines (edges)? When you have made your guess (conjecture), then hold a cube and check (verify) your answers to the questions listed above. How might you be able to remember the parts (attributes) of a cube? Explain. Level B: A cube is like a box. You might think of it as a special type of cardboard box. We could cut up a cardboard box and make it into one large flat piece of cardboard. We often do that when we want to recycle the cardboard. The easiest way to cut a cardboard box is to cut along the lines (edges). How many cuts does it take to make the box into one flat piece? In other words, what is the least number of lines (edges) that need to be cut so that the cardboard is in one flat piece? Remember all the sides of the cardboard must remain attached in one single flat piece. What is the least number of cuts that need to be made? Explain how you determined your answer. Why do you think your answer is correct? Write a note to a friend to convince your friend that your solution will always work for every cube. Problem of the Month Cutting a Cube Page 1

Level C: When you cut a cube into one flat piece we call that piece a net. The reason we call it a net is because we can trace the pattern of the flat piece on a piece of paper or cloth material. If we cut out the pattern we can fold it back over the cube, surrounding it like a net. The nets that cover a cube can be cut into different patterns. One net looks like a cross. It has four faces in a column and two more faces on either side of that column. How would you cut the cube (which edges) to make the net into a cross pattern? Is there more than one way to cut the cube to make a cross? Find some different net patterns that would also cover a cube. Determine how you would have to cut the cubes to make them into new net patterns. Explain your methods. Are there ways to cut the cube so that it won t make a net? Explain your thinking. Sometimes we might think two nets are different, but if you move one around it then looks exactly like the other net. How can you tell if two nets are different? Explain and define the difference. Problem of the Month Cutting a Cube Page 2

Level D: We want to find all the nets that can be folded into a cube. For this investigation we will define two nets as being the same, if we can turn (rotate), move (translate) or flip (reflect) the net and the two nets cover each other exactly. How many unique nets fold into a cube? Draw all possible nets that can be folded into a cube. How did you go about determining the number of nets? How do you know that you have found all the unique nets that fold into a cube? Convince a skeptic that you have found all the possible nets of a cube. Problem of the Month Cutting a Cube Page 3

Level E: There are some patterns of six squares that do not fold into a cube. For example, a pattern of six faces arranged in three columns of two squares all attached together cannot fold into a cube. We call these patterns of six attached squares hexominoes. The word is like dominoes, except instead of having just two squares, it has six squares. A hexomino has six squares, all squares must share at least one side with another square, and all the vertices of the squares must coincide. Arrangement A below is a hexomino, while B is not. A. B. Find all the configurations of hexominoes. These include all the nets that fold into cubes and all the other hexominoes that can t fold into cubes. Draw all unique hexominoes. How did you go about determining the number of unique hexominoes? How do you know that you have found all the unique hexominoes? What percent of hexominoes are nets that fold into cubes? Convince a skeptic that you have found all unique hexominoes. Problem of the Month Cutting a Cube Page 4

Problem of the Month Cutting a Cube Primary Version Level A Materials: One large cube for the teacher to use during discussion and small cubes for every student to hold and examine in their groups. Discussion on the rug: (Teacher holds up one large cube) A cube is a very interesting object. So we are going to examine it. What does examine mean? Who does examinations? What do you think are the parts of the cube we can examine? (Teacher asks questions to have the child think about parts, especially faces and corners and maybe go on to lines or edges.) In small groups: (Each student is holding a cube) (Teacher asks the following questions. Only go on to the next question if student have success) We are going to examine our cube. 1. How many flat sides does a cube have? 2. How many corners does a cube have? 3. How many lines or edges does a cube have? (At the end of the investigation have students either discuss or dictate a response to this summary question) Problem of the Month Cutting a Cube Page 5

How can you remember the parts of a cube? Problem of the Month Cutting a Cube Page 6

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